package com.dqyt.app.bean;

public class O2ObjReport {

    /**
     * 环境温度
     */
    public String hjwd;

    /**
     * 环境湿度
     */
    public String hjsd;


    /**
     * 外观与结构结果
     */
    public String om_wgyjg_jg;

    /**
     * 外观与结构 备注
     */
    public String om_wgyjg_bz;

    /**
     * 绝缘电阻 结果
     */
    public String om_jydz_jg;


    /**
     * 绝缘电阻 备注
     */
    public String om_jydz_bz;


    /**
     * 绝缘强度  结果
     */
    public String om_jyqd_jg;

    /**
     * 绝缘电阻  备注
     */
    public String om_jyqd_bz;

    /**
     * 标志和标识  结果
     */
    public String od_bzhbs_jg;

    /**
     * 标志和标识  备注
     */
    public String od_bzhbs_bz;

    public double o_yqmlc;     //仪器满量程-o2

    public double om_swcz_bq1;       //示值误差标气浓度1
    public double om_swcz_bq2;       //示值误差标气浓度2
    public double om_swcz_bq3;       //示值误差标气浓度3
    public double om_swcz_z1;        //示值误差1-3
    public double om_swcz_y1;        //示值误差1-2
    public double om_swcz_x1;        //示值误差1-1
    public double om_swcz_x2;        //示值误差2-1
    public double om_swcz_y2;        //示值误差2-2
    public double om_swcz_z2;        //示值误差2-3
    public double om_swcz_x3;        //示值误差3-1
    public double om_swcz_y3;        //示值误差3-2
    public double om_swcz_z3;        //示值误差3-3
    public double om_swcz_pjz1;      //示值误差-平均值1
    public double om_swcz_pjz2;      //示值误差-平均值2
    public double om_swcz_pjz3;      //示值误差-平均值3

    public double om_swcz_cldjdwc1;  //测量点绝对误差1
    public double om_swcz_cldjdwc2;  //测量点绝对误差2
    public double om_swcz_cldjdwc3;  //测量点绝对误差3

    public double om_swcz_cldszwc1;  //测量点示值误差1
    public double om_swcz_cldszwc2;  //测量点示值误差2
    public double om_swcz_cldszwc3;   //测量点示值误差3

    public double om_swcz_yqszwc; //仪器示值误差


    public double o_xysj_yqlc;          //响应时间-仪器量程
    public double om_xysj_x1;         //响应时间-响应时间1
    public double om_xysj_x2;         //响应时间-响应时间2
    public double om_xysj_x3;         //响应时间-响应时间3
    public double om_xysj_xysj;       //响应时间-响应时间 结果


    public double om_cfx_yqlc;        //重复性-仪器量程
    public double om_cfx_x1;          //重复性-1
    public double om_cfx_x2;          //重复性-2
    public double om_cfx_x3;          //重复性-3
    public double om_cfx_x4;          //重复性-4
    public double om_cfx_x5;          //重复性-5
    public double om_cfx_x6;           //重复性-6
    public double om_cfx_pjz;           //重复性-平均值
    public double om_cfx_cfx;         //重复性-重复性


    public double om_py_r;           //漂移-仪器量程
    public double om_py_x0;         //漂移-0 零点
    public double om_py_x1;         //漂移-1 零点
    public double om_py_x2;         //漂移-2 零点
    public double om_py_x3;         //漂移-3 零点
    public double om_py_x4;         //漂移-4 零点
    public double om_py_y0;         //漂移-0 示值
    public double om_py_y1;         //漂移-1 示值
    public double om_py_y2;         //漂移-2 示值
    public double om_py_y3;         //漂移-3 示值
    public double om_py_y4;         //漂移-4 示值
    public double om_py_ldpy;        //漂移-零点漂移
    public double om_py_lcpy;        //漂移-量程漂移


    public String swcz_pdjg; // 示值误差 判定

    public String szwc_hgx;  //示值误差的的合格项目  如果两者都合格选其一

    public String cfx_pdjg; //重复性 判定

    public String xysj_pdjg; //响应时间 判定

    public String ldpy_pdjg;  //零点漂移 判定

    public String lcpy_pdjg; // 量程漂移  判定

    /**
     * 不合格原因
     */
    public String bhgyy;

}
